JP3965342B2 - Induction heating cooker - Google Patents

Description

【００２５】
上記予熱完了遅延時間ｔ１は予測される予熱完了よりも早く予熱が完了した場合であり、予熱完了遅延時間ｔ２は予測される予熱完了よりも遅く予熱が完了した場合に対応している。
【００２６】
またステップ１１１で予熱時間Ｔが基準到達時間Ｔ０より大きくない場合は、予熱時間Ｔが基準到達時間Ｔ０に等しく、この場合は予熱完了遅延時間は０となり、ステップ１１０に進んで予熱完了報知を行う。
【００２７】
ステップ１０７では前記予熱完了遅延時間（ｔ１またはｔ２）タイマのカウントを開始し、ステップ１０８に進んで温調制御を開始しステップ１０９に進む。この温調制御では鍋底温度が制御温度に維持されるように誘導加熱コイル５への出力をコントロールする。
【００２８】
ステップ１０９では上記予熱完了遅延時間タイマのカウントがアップしたか否かを判断し、アップした場合はステップ１１０に進んで報知手段１５に予熱完了報知信号を出力して予熱完了報知をし、図２のメイン処理へ移行する。
【００２９】
上記のような予熱処理を行った場合、時間と鍋底温度及び鍋内の加熱物（油）温度との関係は図５及び図６に示すようになる。なお、図５及び図６における実線は、制御手段１３内に記憶されている、基準鍋における検出温度と油の温度の時間変化を表している。
【００３０】
すなわち、予熱完了が予め記憶された基準到達時間Ｔ０より早かった場合（図５の破線参照）、予熱時間Ｔ後に予熱完了した後は鍋底温度の温調が始まるが、それに対し油の温度はまだ設定温度に到達していない。そこで、Ｔからｔ１だけ予熱完了を遅延させる間に油の温度は設定温度近傍に落ち着く。
【００３１】
また逆に予熱完了が予め記憶された基準到達時間Ｔ０より遅かった場合（図６の破線参照）、予熱時間Ｔ後に予熱完了した後は鍋底温度の温調が始まるが、それに対し油の温度は設定温度を超えた状態になっている。そこで、Ｔからｔ２だけ予熱完了を遅延させる間に油の温度は設定温度近傍に落ち着く。したがっていずれの場合も、予熱完了報知を遅延させることにより、より設定温度に近い状態で予熱が完了し、適切に油温制御を行うことができる。
【００３２】
なお、本実施形態では予熱時間Ｔと基準到達時間Ｔ０が等しい場合にのみ予熱完了を遅延させているが、Ｔ−Ｔ０またはＴ０−Ｔの敷居値を予めマイクロコンピュータ１３に記憶させておき、その敷居値内であれば遅延係数を０として予熱完了報知を行うようにしてもよい。この場合は予熱完了時間が許容範囲内であればすぐに予熱完了報知をして使用者が調理にかかれる点で有利である。
【００３３】
【発明の効果】
以上の説明から明らかなように、本発明の誘導加熱調理器では、制御温度に達するまでの時間と記憶手段に記憶された基準到達時間との差に遅延係数を乗じて遅延時間を算出し、報知手段による報知を遅延時間だけ遅延する報知遅延手段を設けたことにより、実際の鍋の温度が設定温度に近い状態で使用者に加熱完了報知ができ、適切に鍋内の温度制御を行うことができるという効果がある。
【図面の簡単な説明】
【図１】 本発明に係る誘導加熱調理器の回路図である。
【図２】 図１の調理器による揚げ物調理時の動作を示すフローチャートである。
【図３】 図１の調理器による揚げ物調理時の予熱処理の前半を示すフローチャートである。
【図４】 図１の調理器による揚げ物調理時の予熱処理の後半を示すフローチャートである。
【図５】 図１の調理器による揚げ物調理時の予熱処理時の温度と時間の関係を示すグラフである。
【図６】 図１の調理器による揚げ物調理時の予熱処理時の温度と時間の関係を示すグラフである。
【図７】 従来例を示す誘導加熱調理器のコイル近傍の概略図である。
【符号の説明】
９…トッププレート、１０…鍋、１１…温度センサ、１３…マイクロコンピュータ、１５…報知手段。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an induction heating cooker, and more particularly to temperature control thereof.
[0002]
[Prior art]
Conventionally, in an induction heating cooker, as shown in FIG. 7, when a high frequency current is applied to the induction heating coil 101, an eddy current is generated in the pan 103 placed on the top plate 102, and the pan 103 is caused by Joule heat based thereon. Heat is generated, and the object to be cooked in the pan 103 is heated and cooked. When cooking the fried food by placing the pan 103 containing oil on the top plate 102 of this induction heating cooker, the temperature of the pan bottom is indirectly measured by the temperature sensor (temperature measuring means) 104 provided on the back surface of the top plate 102. detect, and so as to maintain the temperature of the oil 105 in the pot 103 to a predetermined temperature based on the detected temperature of the temperature sensor 1 04.
[0003]
At this time, since the temperature of the pan 103 is indirectly detected through the top plate 102 in the induction heating cooker, the pot 103 and the top plate 102 are compared with each other when there is no warp 105 in the pan 103. The heat conduction becomes worse and the pan 103 becomes hot. As a countermeasure, there is a method in which means for determining the degree of warping of the bottom surface of the pan 103 from the measurement value of the temperature sensor 104 is provided for a predetermined time from the start of heating, and the temperature rise is controlled according to the determination result ( For example, see Patent Document 1).
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-143858 (FIGS. 1, 2, and 4)
[0005]
[Problems to be solved by the invention]
However, in the induction heating cooker described above, since the pan warpage is determined by calculating the second derivative of the measured value of the temperature sensor and the heating is controlled, cooking of fried food with high accuracy can be performed while correcting the delay following the temperature. However, there are problems that the control is complicated and the temperature rise is slow in the case of a pan with large warpage.
[0006]
Then, an object of this invention is to provide the induction heating cooking appliance which can perform the temperature control in a pan appropriately, without delaying the rise of temperature using a simple control means.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, the induction heating cooker of the present invention is
An induction heating coil for induction heating the pan;
A temperature sensor for detecting the temperature of the pan bottom;
Temperature setting means for setting the temperature of the heated object in the pan corresponding to the temperature of the pan bottom;
Informing means for informing that the heated object in the pan has reached the set temperature by the temperature setting means;
A control means for performing power control to the induction heating coil in accordance with the output of the temperature sensor,
The control means includes
Temperature adjusting means for maintaining the temperature at the bottom of the pan after reaching a predetermined control temperature;
Storage means for storing a reference arrival time to the control temperature in a reference pan and a delay coefficient set corresponding to the control temperature ;
Notification delay means for calculating a delay time by multiplying the difference between the time until the control temperature is reached and the reference arrival time stored in the storage means by the delay coefficient, and delaying notification by the notification means by the delay time Adopted a configuration with.
[0008]
In the induction heating cooker, the reference arrival time stored in advance and the actual arrival time are compared, and if the difference is large, the temperature is not adjusted for a while even if the temperature is controlled to the control temperature. During this time, the actual temperature of the heated object in the pan gradually approaches the set temperature, so if the notification is delayed for a predetermined time, the user can be notified of the completion of heating while the actual heated object temperature in the pan is close to the set temperature. Can properly control the temperature in the pan.
[0009]
The delay time, because it uses a value obtained by multiplying the delay factor to the difference between the reference arrival time and stored in a predetermined time and said storage means to reach the set temperature, it changes flexure degree pot better heating completion notification is Ru can.
[0010]
Further, the delay coefficient, which are set in correspondence with the set temperature, Ru can more appropriately heated completion notification in accordance with the set temperature.
[0011]
Furthermore, the delay coefficient is set in accordance with whether the time until the set temperature is reached is earlier or later than the reference arrival time, depending on the material of the pan in addition to the state of warping of the pan. Is preferable in that it can notify the completion of heating more appropriately.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0013]
FIG. 1 is a circuit diagram of an induction heating cooker according to the present invention. A full-wave rectifier circuit 2 is connected to the AC power source 1. A choke coil 3 and a smoothing capacitor 4 are connected to the output side of the rectifier circuit 2, and an induction heating coil 5 and an IGBT 6 are connected in series. A resonance capacitor 7 is connected in parallel to the induction heating coil 5, and a high voltage diode 8 is connected in parallel to the IGBT 6. A top plate 9 is provided above the induction heating coil 5, and a pan 10 is placed on the top plate 9. A temperature sensor 11 that indirectly detects the temperature of the pan bottom via the top plate is attached to the lower surface of the top plate 9. An input current detection circuit 12 is provided on the input side of the rectifier circuit 2, that is, on the AC power supply line. This input current detection circuit 12 detects the current flowing in the AC power supply line, that is, the input current to the inverter circuit on the output side of the rectifier circuit 2, and A / D converts this to output to the microcomputer 13 as the control means. It is supposed to be.
[0014]
Reference numeral 14 denotes a temperature setting switch. When a user operates the temperature setting switch 14, an operation signal is output to the microcomputer 13, and control according to the set temperature is performed.
[0015]
The microcomputer 13 outputs a drive pulse to the base of the IGBT 6 based on the collector-emitter voltage Vce of the IGBT 6. The microcomputer 13, by comparing pre-and stored control temperature the temperature of the pan bottom to be detected by the temperature sensor 1 1, and controls the drive pulses to the base of the IGBT 6, determined by the temperature setting switch It has a function to maintain the set temperature. Further, the microcomputer 13 has a built-in memory, and, as will be described later, in accordance with each control temperature, reference arrival time data for the control temperature (using an arrival time measured in a predetermined reference pan) and a later-described The delay coefficient data to be stored is stored. The microcomputer 13, the temperature sensor is compared with the temperature stored in advance controlled temperature detected by the sub 1 1 determines the pan warpage degree, the notification to the notification means 15 based on the data in Table 1 below A signal is output.
[0016]
Next, the operation of the microcomputer 13 in the case of cooking fried food using the electromagnetic cooker having the above configuration will be described with reference to the flowcharts shown in FIGS.
[0017]
First, a well-known accessory detection is performed in Step 1 and a well-known pan detection is performed in Step 2. Thereafter, a pre-heat treatment described later in step 3 is performed, and then a normal main process is performed in step 4.
[0018]
As shown in FIG. 3, when the user puts oil into the pan 10 and sets the preheating completion temperature (corresponding to the set temperature in the present invention) by the temperature setting switch 14, the microcomputer 13 first performs the step of preheating. At 101, the preheating time T starts to be counted, and the routine proceeds to step 102.
[0019]
In step 102, the output from the temperature sensor 11 is taken, temperature measurement of the bottom of the pan is started, and the process proceeds to step 103.
[0020]
In step 103, the output value from the temperature sensor 11 is converted into a temperature, and it is determined whether or not it is greater than the control temperature (stored in the microcomputer 13). If the temperature is higher than the control temperature, the process proceeds to step 104. If the temperature is lower than the control temperature, the determination in step 103 is repeated.
[0021]
In step 104, the count of the preheating time T is increased and the routine proceeds to step 105.
In step 105, as shown in FIG. 4, it is determined whether or not the preheating time T is smaller than the reference arrival time T0 stored in the microcomputer 13 in advance. Time t1 is calculated. Otherwise, go to step 111. Note that this phenomenon that the preheating time T is shorter than the reference arrival time T0 is particularly remarkable in an iron pan having a higher permeability than a pan whose reference is the material of the pan.
[0022]
On the other hand, if T is larger than T0 in step 111, the routine proceeds to step 112, where the preheating completion delay time t2 is calculated. Note that this phenomenon that the preheating time T becomes longer than the reference arrival time T0 is particularly remarkable in a stainless steel pan having a lower permeability than a pan based on the material of the pan.
[0023]
The preheating completion delay time t1 is calculated by the following formula.
[Expression 1]
t1 = (T0−T) × delay coefficient (early cut)
The preheating completion delay time t2 is calculated by the following formula.
[Expression 2]
t2 = (T−T0) × delay coefficient (delay)
[0024]
Here, the reference arrival time T0 and the delay coefficient are determined as shown in Table 1 corresponding to the set temperature, and are stored in the microcomputer 13.
[Table 1]

[0025]
The preheating completion delay time t1 corresponds to the case where the preheating is completed earlier than the predicted preheating completion, and the preheating completion delay time t2 corresponds to the case where the preheating is completed later than the predicted preheating completion.
[0026]
If the preheating time T is not longer than the reference arrival time T0 in step 111, the preheating time T is equal to the reference arrival time T0. In this case, the preheating completion delay time is 0, and the process proceeds to step 110 to notify the completion of the preheating. .
[0027]
In step 107, the preheating completion delay time (t1 or t2) timer starts counting, the process proceeds to step 108, temperature control is started, and the process proceeds to step 109. In this temperature control, the output to the induction heating coil 5 is controlled so that the pan bottom temperature is maintained at the control temperature.
[0028]
In step 109, it is determined whether or not the count of the preheating completion delay time timer has been increased. If it has been increased, the routine proceeds to step 110, where a preheating completion notification signal is output to the notification means 15 to notify the completion of the preheating. Transition to main processing.
[0029]
When preheating as described above is performed, the relationship between time, pan bottom temperature, and heated (oil) temperature in the pan is as shown in FIGS. 5 and 6. The solid lines in FIG. 5 and FIG. 6 represent changes over time in the detected temperature and the oil temperature in the reference pan stored in the control means 13.
[0030]
That is, when the preheating completion is earlier than the preliminarily stored reference arrival time T0 (see the broken line in FIG. 5), after the preheating is completed after the preheating time T, the temperature of the pan bottom temperature starts, but the oil temperature is still The set temperature has not been reached. Therefore, the oil temperature settles in the vicinity of the set temperature while delaying the completion of preheating from T to t1.
[0031]
Conversely, if the completion of preheating is later than the preliminarily stored reference arrival time T0 (see the broken line in FIG. 6), after the preheating is completed after the preheating time T, the temperature control of the pan bottom temperature starts. The set temperature has been exceeded. Therefore, the oil temperature settles in the vicinity of the set temperature while delaying the completion of preheating from T to t2. Therefore, in any case, by delaying the preheating completion notification, the preheating is completed in a state closer to the set temperature, and the oil temperature control can be appropriately performed.
[0032]
In this embodiment, the completion of preheating is delayed only when the preheating time T is equal to the reference arrival time T0. However, the threshold value of T-T0 or T0-T is stored in the microcomputer 13 in advance. If it is within the threshold value, the delay coefficient may be set to 0 to notify the completion of preheating. In this case, if the preheating completion time is within the allowable range, it is advantageous in that the preheating completion notification is immediately given and the user can start cooking.
[0033]
【The invention's effect】
As apparent from the above description, in the induction heating cooker of the present invention, the delay time is calculated by multiplying the difference between the time until the control temperature is reached and the reference arrival time stored in the storage means by the delay coefficient, By providing a notification delay means that delays notification by the notification means by a delay time , it is possible to notify the user of the completion of heating in a state where the actual pan temperature is close to the set temperature, and appropriately control the temperature in the pan. There is an effect that can be.
[Brief description of the drawings]
FIG. 1 is a circuit diagram of an induction heating cooker according to the present invention.
FIG. 2 is a flowchart showing an operation during cooking of fried food by the cooking device of FIG.
FIG. 3 is a flowchart showing the first half of pre-heat treatment when cooking fried food by the cooking device of FIG. 1;
FIG. 4 is a flowchart showing the second half of the pre-heat treatment when fried food is cooked by the cooking device of FIG. 1;
FIG. 5 is a graph showing the relationship between temperature and time during pre-heat treatment during fried food cooking by the cooker of FIG. 1;
6 is a graph showing the relationship between temperature and time during pre-heat treatment during fried food cooking by the cooker of FIG. 1. FIG.
FIG. 7 is a schematic view of the vicinity of a coil of an induction heating cooker showing a conventional example.
[Explanation of symbols]
9 ... top plate, 10 ... pot, 11 ... temperature sensor, 13 ... microcomputer, 15 ... notification unit.

Claims (2)

An induction heating coil for induction heating the pan;
A temperature sensor for detecting the temperature of the pan bottom;
Temperature setting means for setting the temperature of the heated object in the pan corresponding to the temperature of the pan bottom;
Informing means for informing that the heated object in the pan has reached the set temperature by the temperature setting means;
A control means for performing power control to the induction heating coil in accordance with the output of the temperature sensor,
The control means includes
Temperature adjusting means for maintaining the temperature at the bottom of the pan after reaching a predetermined control temperature;
Storage means for storing a reference arrival time to the control temperature in a reference pan and a delay coefficient set corresponding to the control temperature ;
Calculating a delay time by multiplying said delay factor to the difference between the reference arrival time and stored in time and the storage means to reach the control temperature, informing delay means for delaying the notification by the notification means only the delay time An induction heating cooker characterized in that it is provided. 2. The induction heating cooker according to claim 1 , wherein the delay coefficient is set according to whether a time until the control temperature is reached is earlier or later than the reference arrival time.

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